Voting-machine.



C. C. MOORE, JR.

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1,17%548. Patented Feb. 22, 1916.

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VOTING MACHINE.

APPLICATION FILED NOV. 16. i907.

1,172,548. Patented Feb. 22,1916.

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C. C. MOORE, JR.

VOTING MACHINE.

APPLICATION FILED N0\'.I6.1907.

Patented Feb. 22, 1916.

15 SHEETS-SHEET 3.

13% tn coma C. C. MOORE, III.

VOTING MACHINE.

APPLICATION FlLED NOV. Is. I907.

Patented Feb. 22, 1916.

I5 SHEETS-SHEET 4.

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VOTING MACHINE.

APPLECATION FILED NOV. 16. 1907. 1,172,548. Patented Feb. 22,1916.

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vmw WW C. C. MOORE, JR.

VOTING MACHINE.

APPLICATION FILED NOV. 16. 1907.

1,172,548. Patented Feb. 22,1916.

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zia rp HLLC c. c. MOURE, JR. VOTING MACHINE.

' APPLICATION 'HLED NOV. lfiflQOL 1 172 548, Patented Feb. 22,1916. 15 SHEETSSHEET I.

C. C. MOORE, JR.

VOTING MACHINE.

APPLICATION FILED NOV. 16. 1907.

' 1,172,548. Patented Feb. 22, 1916.

I5 $HEETS-SHEET 8.

C. C. MOORE, In.

VOTING MACHINE.

APPLICATION HLED NOV.16. 1901 1,172,548. Patented Feb. 22,1916.

15 SHEETSSHEET 9- C. C. MOORE, JR.

VOTING MACHINE.

APPLICATION FILED NOV. 16. 1907.

Patented Feb. 22, 1916.

15 SHEETSSHEET l0.

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VOTING MACHINE.

APPLICATION FILED NOV. 16. 1907.

Patented Feb. 22, 1916.

15 SHEETS-SHEET ll.

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C. C. MOORE, JR. VOTING MACHINE.

APPLICATION FILED NOV. 16. 1907.

Patented Feb. 1916.

15 SHEETS T 12 FIIL OR hm Q T 1 Kill Rim C. C. MOORE, In.

VOTING MACHINE.

APPLICATION FILED NOV. 16. 1907.

15 SHEETS-SHEET 13.

C. C. MOORE, JR.

VOTING MACHINE.

APPLICATION -FlLED NOV. 16. 1907.

1,172,548. Patented Feb. 22,1916.

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Wi ma/wan flu MW! 871% L/NL m C. C. MOORE, JR.

VOTING MACHINE.

APPLICATION FILED NOV. I6. I907. 1,172,548. Patented Feb. 1916.

15 SHEETS-SHEET I5- UNITED STATES PATENT OFFICE.

CHARLES C. MOORE, JR, OF LEXINGTON, KENTUCKY.

VOTING-MACHINE.

Specification of Letters Patent.

Patented Feb. 22, 1916.

Application filed November 16, 1907. Serial No. 402,417.

lowing is a specification.

This invention relates to voting machines, some of the features of which were set forth in my application for. patent, Serial No. 736,440, filed November 9, 1899.

Generally stated its objects are to simplify and render more certain and accurate in operation those parts of a voting machine which perform the functions which have heretofore been generally performed by voting machines, an in addition to render the machine capable of performing additional and entirely new functions.

The invention contem lates permitting the voter to exercise all of his rights in voting fully and freely while preventing him from exceeding those rights and also contemplates the prevention of any manipulation of the machine by the ofiicial having it in charge during its useor in tabulating the results as is necessary in any device which can be considered a successful voting machine.

With these objects in view my invention embodies means for insuring that the names of the candidates shall be correctly associated with the recording mechanism, means for automatically recording the state of the counters when the machine is set up and closed, ready for the first voter, means for preventing incomplete voting, and means for automatically recording the state of the counters as the machine is closed, and again when the machine is opened.

In addition to the above safeguards against error or distortion of the records,

the invention embodies means for rendering it easy for the voter to vote for the candidates and upon the questions desired, and to correct any errors made before leavin the machine without however permitting him to exceed his rights in voting. He may cast a straight party vote or a scratched vote or may cast a split vote in the multi-candidate group without being compelled to operate the keys in a fixed order.

Other novel features of my invention will be apparent from the following description,

taken in connection with the accompanying drawings In the drawings, Figure'l is a perspective new of a voting machine embodyin my invention in position ready for use, ut with the door closed; Fig. 2 is a perspective view of the machine with the door open, and with a part of the supporting base and a part of the door broken away; Fig. 3 is a vertical section through one of the columns of a single-candidate group; Fig. 4 is a front elevation of a portion of the machine with the front plate removed, showing the mechanism of the single-candidate groups; Figs.

5, 6, 7 and 8 are detail perspective views of the key of a single-candidate group and associated parts; Fig. 9 is a vertical section through one of the columns of a multi-can-- didate group; Fig. 10 is a partial front elevation of the mechanism shown in Fig. 9, with the front plate removed; Fig. 11 is a horizontal section of the same parts looking down; Figs. 12, 13, 14, 15, 16 and 17 are detail perspective views of a key of a multicandidate group and cooperating parts; Fig. 18 is a vertical section through a party group; Fig. 19 is a front elevation of the parts operating upon actuation of party keys; Fig. 20 is a plan view of the mechanism shown in Fig. 19; Figs. 21 and 22 are perspective views of the heads of party keys showing the arrangement for the party emblem and name; Fig. 23 is a front elevation partly broken away of a portion of the machine used for presidential electors showing the means for splittin the vote: Fig. 24 is a horizontal section 0 this part of the machine looking down; Fig. 25 is a vertical section partly broken away, taken at right angles to the face of the machine; Fig. 26 is a perspective view of slips of paper used in the substitution of candidates; Fig. 27 is a perspective view of the slip of paper rolled up and sealed by the gummed strip, ready for insertion into the aperture provided for that purpose; Fig. 28 is a vertical section through a blank key, or the termination of a candidate column; Fig. 29 is a front elevation of'the same part; Fig. 30 is a sectional view of the same art, showing a blank key in operated position; Fig. 31 is a horizontal section through the blank keys, that are comprised in a multi-candidate group; Fig. 32is a portion of a front elevation including the same part of the machine; Fig. 33 is a vertical section through a multi-candidate group column, illustrating the provision for multi-indorsed candidates in a multi-candidate group; Fig. 34 is a coupon form of paper ballot, used for the substitution of other names for the candidates comprised in a multi-candidate group; Fig. 35 is a vertical section through a questions-key column; Figs. 36 and 37 are detail views of parts operated by the question keys; Fig. 38 is a front elevation showing the arrangements for adjusting the machine for use of a limited voter; Fig. 39 is a vertical section through the limiting key; Fig. 40 is a top view of the same portions of the machine; Fig. 41 shows the limiting key in perspective; Fig. 42 is a front elevation of the base plate of the machine and the shafts moving in boxing attached to the base plate; Fig. 43 is a vertical section showing the movable face plate of the-machine connected to record the vote and means for moving it; Fig. 44 is a front elevation showing the face plate and keys with means for avoiding displacing candidates names on the keys; Fig. 45 shows a keyhead in perspective; Fig. 46 shows the candidate labels designed to be placed on the keys; Fig. 47 is a front elevation of the full stroke device provided to avoid an incomplete actuation of the machine gate; Fig. 48 is a top view of the same; Fig. 49 is a horizontal sectional view showing an operative position; Fig. 50 is a front elevation of the mechanism on the reardoor, provided for the printing of the counter records at the time of closing and opening the rear door, the door being partly broken away to show some mechanism behind it; Fig. 51 is a horizontal section, on the line 5l-51 of Fig. 50; Fig. 52 is a vertical section on the line 52 of Fig. 50; Fig. 53 is a detail in cross section on the line 53-53 of Fig. 50; Fig. 54 is a front elevation of the lock on the rear door for preventing access to the counting mechanisms; Fig. 55 is a vertical section through the same; Fig. 56 is a plan view of the same part in section; Fig. 57 is a front elevation.

of the lock in operated position; Fig. 58 is an enlarged front view of the counting mechanism; Fig. 59 is a side view of the counting mechanism; Figs. 60 and 61 are detail views of parts-of the counting mechanism; Fig. 62 is a fragmentary sectional view showing the counters in one operated position during resetting; Fig. 63 is a side view of the parts shown in Fig. 62; Figs.

64 and 65 are sectional views showing the counters in other operated positions during resetting; and Fig. 66 is a perspective view of the means for supporting a series of counters in a vertical column.

In these drawings similar letters represent corresponding parts in all views. and

narrates for convenience in distinguishing the groups of mechanism I have used small letters to indicate those parts which operate as the voting keys are manipulated, and have used large letters to indicate those parts which are operated only as the voter leaves the machine by the swinging of a. gate which he must turn in order to leave. In addition to this a single reference letter is used upon each group of parts which operate together, the parts of the group being distinguished by different numerals used with the letters.

As shown in Fig. 1, A represents a support for the part B, which contains all of the voting and recording mechanism. The support A is preferably made in the form of a casing in whichthe voting machine B may be packed when not in use. When mounted ready for use the stand may be supported by a removable brace, as shown, and will be placed, facing a wall, so as to leave room for the voter to pass between it and the wall. The gate C (see Fig. 2) extends outwardly from the face of the machine and the machine is placed so near the wall that the voter will necessarily swing the gate in In Fig.2 I have shown on the face of the machine numerous push buttons for registering the will of the voter, and it will be understood that each is connected with suitable mechanism within the machine for either registering its operation or setting the registering mechanism for operation by the swinging gate. These push buttons are termed keys or voting keys, but it will be understood that the invention is not limited to their use, and that the keys may be levers, pull buttons or any other mechanism which the voter actuates in voting. The keys are arranged in vertical and horizontal rows. The vertical row marked d at the left of the machine in Fig. 2 are the party keys and by pressing any one of them a straight party vote may be cast for the candid-ates of the party indicated thereon. To the'left of these there is a vertical row of keys 6 which are the keys for the presidential electors, and it' will be understood that these keys will be omitted or used for some. other purpose at elections where no presidential electors are to be voted for. Each key in this row represents a group of presidential electors nominated by the party represented by that key.

To the right of the vertical row of party keys (Z which preferably have visible on their ends the party emblems and names to which they respectively relate I place a series of vertical rows of keys a which I call candidate keys, since each key is for a single candidate. All of the keys in a vertical row represent candidates of various parties for a single office, such as governor or lieutenant governor, and the name of the ofiice appears at the top of the row. Each horizontal row of these keys (it represents the several candidates of a single party for the various offices, the particular party being indicated on the party key (Z in that horizontal row. It will be observed that there is an additional key 9 added at the bottom of each vertical row of keys a, thus making a horizontal row of keys 9 which are not in line with any party key (Z. An additional party key might be added to the party column in line with the keys, but if so it would have the name of no party on it and would be a blank party key. The keys relate to no particular party, and I term them blank candidate keys. They operate mechanism however similar to that of the regular candidate keys, and are therefore to be distinguished from the so-called irregular candidate keys heretofore used for operating special mechanism to permit voting for a candidate not named by any party. While these keys 1 operate counting and interlocking mechanism in the same way as do the candidate keys they perform the additional function of opening an aperture E (see Fig. 3) in which may be placed a slip of paper rolled up as shown in Fig. 27, containing the name of any person desired as a substltute for the candidates named or any suggestion with reference to the ofiice in question.

The group of keys (6 are called the single candidate group because only one candi date is to be voted for for one ofiice, but uslr ally there are some offices to which several candidates are to be elected and consequently provision must be made for voting for more than one. For this purpose I have shown a series of keys Z) which may be termed multi-candidate keys. There will be placed on the machine as many vertical rows of multi-candidate keys Z) as there are places to be filled. The actuation of aparty key (1 will set the mechanism to cast votes in the 'multi-candidate group for the nominees of that party, but the voter may wish to split his vote or scratch a particular candidate of that party and therefore I provide a series of keys 0 in a-horizontal line at the top, one being in each vertical row of keys I). The mechanism is such that the actuation of a key 0 renders inoperative the counting mechanism of that vertical row from the party keys so that the party key cannot cause a vote for any one named in that column. when a party key is actuated therefore the actuation of a key 0 will scratch the candidate of the party in that vertical column. This actuation of key 0 is,

furthermore necessary before any individual key in the column can be actuated. When key 0 has been pressed in, any key in the multi-candidate group may be operated. The key 0 cannot be withdrawn after it has been actuated, and therefore the number of keys 0 is the limit to the number of keys Z) which may be actuated in the multicandidate group. In connection with the multi-candidate group I have provided a horizontal row of blank keys 9 at the bottom which are similar to the keys g opening receptacles below them to receive a paper slip such as shown in Fig. 27. These keys are similar to the other keys and operate counting and interlocking mechanism, and their purpose is to permit scratching all candidates in that column and voting for some one not named.

To the right of the multi-candidate keys there is a vertical column of questions upon which votes are to be taken, and to the right of that is a vertical column of keys for indicating the vote upon those questions. These keys are arranged in groups of threes, the two upper keys h of each group being to indicate a vote in the affirmative or negative upon the question set opposite, and the lower key it being for the purpose of correcting any action of the party key in indicating a vote upon the question. The operation of a party key will operate the question key in the affirmative or negative, according to whether the party platform endorses it or not, but the lower key it permits an independent vote on this question when voting the party ticket.

In order to permit the substitution of other candidates than those named for presidential electors the machine is provided with apertures 15' which are opened by the corresponding keys and permit the insertion of slips of paper containing the names desired as in the case of the blank candidate keys.

The use of the blank keys in the various groups operating counting and interlocking mechanism makes it possible to provide against incomplete voting and insures against inaccuracy in the working of the counting mechanisms. The setting and interlocking mechanisms are such that the final operation in the casting of a ballot cannot be accomplished until each office for which there are candidates to be elected will have had one key in that group, or the blank key in that group, properly actuated. This prevents incomplete voting by oversight.

The mechanism of the blank keys being like that of the others, the chances of inaccurate working are reduced and the sum total shown by the counters in each office group will be the same, corresponding to the number of voters.

The face plate E of the machine through which the stems of the voting keys pass is made movable a short distance out toward the position occupied by the voter, although it is normally in the same plane as the fixed margin plates E and E. See Figs. 2, 24.- and 28. The plate E is given this outward movement by the swinging of the gate (J as the voter leaves the machine, and it is again returned to normal position as the gate (J is swung back into the position shown in Fig. 2, the mechanism for accomplishing this being described hereafter. In its outward movement the plate E engages the enlarged heads of such of the voting keys as have been pressed in (see for instance Fig. 3), and withdraws them to normal position, the operation of the gate having first released all keys so that they can be Withdrawn.

The actuation of the counters corresponding to some keys takes place as the keys are pressed in, and may be revoked by pulling the key out again prior to the swinging of the gate C in the final act of voting, Whereas other keys simply set the mechanism so that the counters will be actuated only as the gate swings. The party keys are of the last mentioned or delayed action type, whereas the single candidate keys are of the first or direct action type.

The purpose and functions of the various parts of the machine will be more fully understood as the specific groups of mechanism are considered and their relations se forth.

Back of the movable face plate E and extending also back of the thin fixed plates E and E there is a heavy cast metal plate I) which I term the base plate, since it supports or carries most of the operative parts. It is shown in cross section in Fig. 8 and it extends from top to bottom and from end to end of the machine in a vertical plane when the machine is in operative position. It is formed with transverse ribs D through Y which openings are made to constitute elon- There is a star wheel for each of the voting keys on the machine, except the party keys, and turning it operates the the end of the key spindle will turn them as the key is pushed, and also as it is pulled out, unless the action is interfered with. There is also a spring hook F for each star wheel secured rigidly to the movable face plate E at one end by the bar E and hav ing a hook at its other end adapted to engage the star wheel and turn it as the plate E is moved forward. Being in the form of springs these hooks may be bent out of op erative engagement with any particular key by the mechanism hereafter described. The stems or spindles of the voting keys in the different groups differ from each other in some respects to adapt them to their particular use, but they are all made in two sections as shown in Figs. 3 and 5, the rear section a being hinged to the front section by a pin a which permits the rear section to be raised out of contact withthe star wheel G. The bearing openings in the ribs l) are cut away at their inner upper por tions as shown at D to permit this raising action. Means for raising the ends a at the proper times will be described later, and it will be understood that such means is necessary, otherwise the total efiect of the key on the counter would be nothing, since it would simply be pushed forward and then pulled back to original position. From the above construction it will be noted that the voting keys above mentioned operate the counters by direct action, whereas the hooks F turn them by delayed action at the time that plate E is moved by the turning of gate C.

In order to lift the ends (1)2 so as to prevent reversing the count of those keys which have been operated there is a vertical plate for each row of keys placed behind the plate D, and this plate has openings fitting the ends (11 A spring tends normally to raise it and it is held down by a finger such as J (see Fig. on shaft J which extends along the upper part of plate D and which is oscillated by the gate C to raise finger J before the keys are withdrawn by plate E.

In order to fully understand the structure and operation of the keys at in the single candidate group and the interlocking mechanism therefor, reference should he had to Figs. 3, 4 and 5 of the drawing. ()ther groups of keys have many similar parts having analogous functions and an understanding of this group will assist in understanding the others without a repetition of the detailed description.

For each candidate group there is a slide bar is fitted into the front face of the base plate, and capable of vertical movement counters corresponding to that key. They I are so placed that a hook or pro ect1on on also a train of locking blocks 2', resting on the bar k, being held in position by suitable clips, which blocks i, have a vertical movement. These blocks 6 constitute the interlocking mechanism ina single candidate group. \Vhen any key a is actuated, its projection (1* impinges on the surface 2', orcing the block 2' upward, whereupon the part i is forced under the projection a such that another key cannot be actuated.

The train of blocks 2' above the actuated key,

in like manner, locks the keys from operation, and since the train below the actuated key cannot move owing toithe projection a", all keys below the actuated key are locked. It is seen that the actuated key separates the train, causing only those blocks above it to move.

The interlock mechanism 0 erates during the first eighth inch travel 0 the actuation of the key. During the second eighth inch travel'of the key, the bar it moves downward owing to the impinging of the projection a on the incline [0 In the downward movement of the bar is, the surfaces 10 impinge on the spring hooks F,'forcing all such hooks in the same vertical column down, as shown in the lower part of Fig. 3, this part being in operated position. When the bar A: is thus forced down, its upper end clears the projection M of the dog M, permitting the lateral movement of the bar M, so far as that candidate group is concerned. The bar In: performs no other function than the two described.

It will be noticed that during the actuation of a key, no movement of the star wheel G is performed during the first eighth inch of travel, but only during the last of the travel is'the star wheel moved by the farther extremity a of the key. These star wheels are part of the counting mechanism. It is noticed the withdrawal of the key would reverse the star wheel movement, and so revoke the previous count. Therefore such a vote could be withdrawn, were the voter desirous of changing his selection. To avoid this reversing of the star-wheel, when the keys are withdrawn by the face plate, in the final operation of the voter, a bar N, placed on the back of the bed-plate, carries in its openings N the farther extremities (5 of the keys in a candidate group. When the shaft J has been operated by the opening of the gate C, the lug J lifts, releasing the termination N of the bar N, such that the coil spring N lifts the bar the lower end of which plays through the guide eye N As this bar lifts it carries with it the parts 0?, which swing on the pivots a thus permitting the star-wheels to be cleared upon the outward movement of the faceplate, while upon the closing of the gate, the dog J forces the bar N into normal position. There is such a bar for each candidate group, and it performs no other function than the one described. Clearance in the base plate is shown at D to permit the lifting of the key parts a Clearance D is to admit the key projection a. The square holes D in the base plate through which the keys move, prevent their turning.

The operations attendant upon the actuation of keys in a multi-candidate group are shown in Figs. 9, 10, 11. The construction of these keys and the moving parts operated by them varies from those in the single candidate group, though with the eX- ception of the preliminary actuation of a key 0, these keys are not different from the others in appearance, or method of operating, so far as the voter is concerned. As previously explained, these keys are normally locked, and the group is rendered operative by the actuation of a key 0. No second key 0 can be operated until a key in the group has been actuated, nor can a sec ond key in the group be actuated until a second key 0 has been actuated. It is thus seen a multi-candidate group is established by combining a definite number of keys 0 into a group.

In a multi-candidate column the bar n is a modification of the bar It, in a single candidate group described, n varies in having a movable piece n n (see Fig. 13). This piece plays over 17. a part of the bar. When the projection b impinges on the incline surface 11}, it forces the movable piece only, downward, in which the end 12. impinges on the adjacent hook F, moving it downward. Owing to this construction, the actuation of a. multicandidate key does not carry down the series of hooks F, in that vertical column, but the single hook corresponding to that key. hen a key 0 is actuated, its projection c impinges on the inclined sur face n, causing the-bar n, to move downward, in which all the parts 91 impinge on all the hooks F, in that vertical column, carrying them downward. The bar n, when operated will have cleared its corresponding dog M. When the bar n has moved down- Ward, a spring finger E slips in between the head of the bar and the left end of the dog M, such that this bar n, can not be forced up, which in turn locks key 0 from being withdrawn. As shown in Fig. 11 the spring finger E bears against the face of the bar n at its end immediately below the dog M and consequently when the bar 11, moves downward the end of the finger E by its spring action passes in over the end of the bar n and between it and the dog M, thus interposing an obstruction preventing the bar 1?. from being moved back up against the dog M. The spring finger E (Fig. 9) is fastened to the face plate and upon the out ward movement of this plate the finger E moves with it, thus clearing for the move- 

